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<p>Satellite Energy Prediction and Autonomous Management Technology.- Research on Key Technologies of Geosynchronous SAR Imaging System.- Sea-land Segmentation Algorithm for SAR Images Based on Superpixel-merging.- Vector Quantization: Timeline-based Location Data Extraction and Route Fitting for Crowdsourcing.- Target Aspect Estimation in SAR Images via Two-Dimensional Entropic Thresholding and Radon Transform.- Signal Model and System Parameter Study for Geosynchronous Circular SAR.- Low- light Remote Sensing Images Enhancement Algorithm based on Fully-convolutional Neural Network.- Imaging Algorithm of Arc Array MIMO-SAR Based on Keystone Transform.- PERFORMANCE ANALYSIS OF VEHICLE-BORNE DUAL-BAND DUAL-POLARIZATION WEATHER RADAR.- A New 2D Doppler Steering Method Used for Format Flying Satellites InSAR System.- Research on Imaging Algorithms for Bistatic System of Geosynchronous SAR based on stationary motion mode.- Ultra-short-term Forecasting of Mid-low Altitude Wind Based on LSTM.- Research on Formal Modeling and Analysis of Complex Space Information Systems.-&nbsp;Design of routing incentive protocol for space network based on blockchain technology.- Real-time GF-4 Satellite Image Enhancement in Low Light Conditions.- Development and Prospect of spaceborne infrared Fourier spectrometer.- The ecological function zoning on the hydro-fluctuation belt in Yinzidu reservoir.- High-Speed Object Tracking with Dynamic Vision Sensor.- Analysis of the Algebraic Tails of GF-3 SAR Images.</p><p>&nbsp;</p>

<p><b>Liheng Wang&nbsp;</b>has long been engaged in missile power research and space engineering management. Presided over the development of China's first sea defence missile solid engine, which was successfully used in anti-ship missile and achieved a significant technological leap. He served as the leader of the "five-star working group" of the aerospace ministry (1990), and achieved the first successful launch of five satellites in one year. He served as the deputy general commander of China's manned space program (1999-2002), led and organized the development and test of test ships and launch vehicles, and completed the launch and recovery of shenzhou I and ii. Weapons and equipment to develop the first as a group company at the same time, realize the continuous key defense weapon equipment first flight and test success, completed the new model and important stage of setting up a development task, realizes the five new satellite first launch successfully. Led and organized the establishment and implementation of several major space projects, actively promoted the management and innovation of space engineering, and made significant contributions to the sustainable development of China's space industry.</p><p><b>Yirong Wu</b> is currently the director of Aerospace Information Research Institute, Chinese Academy of Sciences (AIR), and the academician of Chinese Academy of Sciences. He received his BSc and MSc from Beijing Institute of Technology in 1985 and 1988 respectively, and his PhD from Institute of Electronics, Chinese Academy of Sciences (IECAS) in 2001. He joined the IECAS in 1988. He is the leading expert in the realm of information science in China, and he has been making an important contribution to the development and progress of information science and technology in China. He has published over 100 papers in the field of information science, and he is the member of Degrees Committee of the State Council. He has been in charge of several national major projects, and he has won the National Prize for Progress in Science and Technology for several times.&nbsp; He is the chief scientist of the National Basic Research Program of China (973 Program), and the information technology expert of the National High Technology Research and Development Program (863 Program). He is currently the Editor-in-Chief for Journal of Electronics & Information Technology, Microsystems & Nanoengineering, and Journal of Radars.</p><p><b>Jianya Gong</b>&nbsp;is the surveying and mapping and geographic information scientist. In 2011, he was elected as a member of the Chinese Academy of Sciences. Professor of Wuhan University. Former Chairman of the Sixth Committee of the International Society of Photogrammetry and Remote Sensing. Mainly engaged in geographic information theory and geometric remote sensing basic research. In the early 1990s, the concept and data model of object-oriented GIS were proposed. It has now become the mainstream technology of GIS software, and it has taken the lead in the development of object-oriented GIS software GeoStar, which has been widely used in many fields such as mapping, land and power management in China.&nbsp;In terms of photogrammetry and remote sensing, he proposed the generalized geometric imaging model and accurate processing method of remote sensing, presided over the development of China's remote sensing satellite ground processing system, and greatly improved the self-positioning accuracy of domestic remote sensing satellite images. He has won 1 first prize for national scientific and technological progress, 3 second prizes, and 1 Dolezal Achievement Award from the International Society for Photogrammetry and Remote Sensing (ISPRS).</p>

<p>This book is the proceedings of the 5th China High-resolution Earth Observation Conference (CHREOC). The series conference of China High Resolution Earth Observation has been becoming the influential academic event in the earth detection area, and attracting more and more top experts and industry users of related fields. The CHREOCs focus on the popular topics including military-civilian integration, the One Belt and One Road project, the transformation of scientific research achievements, and it also discusses the new ideas, new technologies, new methods, and new developments. The CHREOCs have effectively promoted high-level institutional mechanisms, technological innovation, and industrial upgrading in the high-resolution earth observation area, and arouse the influence of the national-sponsored major project. </p>

<p>All papers in this proceeding are from the 5th CHREOC, and most authors are the researchers and experts participating the state major project CHEOS. The papers arethe extraction of research results and reflect the technique level and research direction of the field high-resolution earth observation. All articles have gone through the scientific and strict reviews for several rounds by the experts from the related fields, and therefore reflect the research level and technology innovation of the high-resolution field earth observation. This proceedings will be an informative and valuable reference for both academic research and engineering practice.<b>&nbsp;</b></p><p></p>

Includes both theoretical knowledge and engineering practice about the CHROES. Shows the scientific and technological innovation of the whole China High-resolution Earth Observation industry chain Provides the first-hand data and practice tested models and many tips or insights into the research and technology of the high-resolution earth observation based on the extensive and in-depth project practice.